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A novel heat-pulse probe for measuring soil thermal conductivity: Field test under different tillage practices

[PDF] Artículo principal (8.786Mo)
Identificadores
URI: https://hdl.handle.net/10481/79187
DOI: https://doi.org/10.1016/j.compag.2022.107414
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Auteur
Al-Shammary, A.A.G; Caballero Calvo, Andrés; Fernández Gálvez, Jesús
Editorial
Elsevier
Materia
Soil thermal conductivity
 
Heat-pulse-probe design
 
Soil management practices
 
Tillage practices
 
Fertilizer treatments
 
Date
2022-09
Referencia bibliográfica
GATEA AL-SHAMMARY, A., CABALLERO-CALVO, A., ABBAS JEBUR, H., KHALBAS, M.I., FERNÁNDEZ-GÁLVEZ, J. (2022). A novel heat-pulse probe for measuring soil thermal conductivity: Field test under different tillage practices. Computers and Electronics in Agriculture, 202, 107414, 1-13, ISSN: 0168-1699
Résumé
Accurate soil thermal conductivity (λ) measurements are needed in experimental agri-environmental research. This study design and build of new heat-pulse probe (HPP) based on transient state technology to measure λ. The HPP consists of three main components: an electronic control system, a measurement chamber, and sample rings. The performance of the new HPP for in-situ λ measurements is compared to estimates from measurable soil physical properties (pedotransfer function). Tests were conducted in clay loam and loam soils at three depths. λ measurements by the HPP were affected by tillage practice, fertilizer treatment, soil depth, and soil type. No significant differences in λ measurements by the HPP and estimates from a pedotransfer function were found between tillage practices. There were positive correlations between their values at three soil depths: R2 = 0.92 at 0–5 cm depth, and R2 = 0.88 at both 5–10 and 10–15 cm depths. The standard deviation from the HPP measurements were 0.061, 0.077, and 0.080 W·m−1·K−1 at 0–5, 5–10, and 10–15 cm depths, respectively. In contrast, the pedotransfer function estimates had standard deviations of 0.085, 0.660, and 0.083 W·m−1·K−1, respectively. It was found that conventional tillage increases temperature flow in soils compared to no-tillage because of decreasing soil bulk density (ρb) and consequently higher porosity. The proposed HPP is a low-cost and energy-efficient device, with wide applicability under a range of conditions. It is highly recommended for measuring λ clay loam and loam soils; however, more research is needed to determine its value with other soil types.
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